Two-lens systems, In the figure, stick figure O (the object) stands on the common central axis of two thin, symmetric lenses, which are mounted in the boxed regions. Lens 1 is mounted within the boxed region closer to O, which is at object distance p1. Lens 2 is mounted within the farther boxed region, at distance d. Each problem in the table refers to a different combination of lenses and different values for distances, which are given in centimeters. The type of lens is indicated by C for converging and D for diverging; the number after Cor Dis the distance between a lens and either of its focal points (the proper sign of the focal distance is not indicated). Find (a) the image distance iz for the image produced by lens 2 (the final image produced by the system) and (b) the overall lateral magnification M for the system, including signs. Also, determine whether the final image is (c) real or virtual, (d) inverted from object O or noninverted, and (e) on the same side of lens 2 as object O or on the opposite side.

Two-lens systems, In the figure, stick figure O (the object) stands on the common central axis of two thin, symmetric lenses, which are mounted in the boxed regions. Lens 1 is mounted within the boxed region closer to O, which is at object distance p1. Lens 2 is mounted within the farther boxed region, at distance d. Each problem in the table refers to a different combination of lenses and different values for distances, which are given in centimeters. The type of lens is indicated by C for converging and D for diverging; the number after Cor Dis the distance between a lens and either of its focal points (the proper sign of the focal distance is not indicated). Find (a) the image distance iz for the image produced by lens 2 (the final image produced by the system) and (b) the overall lateral magnification M for the system, including signs. Also, determine whether the final image is (c) real or virtual, (d) inverted from object O or noninverted, and (e) on the same side of lens 2 as object O or on the opposite side.

Physics for Scientists and Engineers, Technology Update (No access codes included)

9th Edition

ISBN:9781305116399

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter1: Physics And Measurement

Section: Chapter Questions

Problem 1.60AP: A water fountain is at the center of a circular pool as shown in Figure P1.59. A student walks...

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Two-lens systems, In the figure, stick figure O (the object) stands on the common central axis of two
thin, symmetric lenses, which are mounted in the boxed regions. Lens 1 is mounted within the
boxed region closer to O, which is at object distance p1. Lens 2 is mounted within the farther boxed
region, at distance d. Each problem in the table refers to a different combination of lenses and
different values for distances, which are given in centimeters. The type of lens is indicated by C for
converging and D for diverging; the number after Cor Dis the distance between a lens and either
of its focal points (the proper sign of the focal distance is not indicated). Find (a) the image
distance iz for the image produced by lens 2 (the final image produced by the system) and (b) the
overall lateral magnification M for the system, including signs. Also, determine whether the final
image is (c) real or virtual, (d) inverted from object O or noninverted, and (e) on the same side of
lens 2 as object O or on the opposite side.
(a) (b) (c)
(d)
(e)
P1
Lens 1 d
Lens 2 i2 M
R/V I/NI Side
+21 C, 9.1 9.5 C, 7.8

(a) (b) (c)
(d)
(e)
P1
Lens 1 d
Lens 2 i2
M
R/V I/NI Side
+21
C, 9.1
9.5 C, 7.8
(a) Number
i
Units
(b) Number
i
Units
(c)
(d)
(e)
>
>
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>

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